References
- Abral, H., D. Kadriadi, A. Rodianus, P. Mastariyanto, Ilhamdi, S. Arief, S. M. Sapuan, and M. R. Ishak. 2014. Mechanical properties of water hyacinth fibers – Polyester composites before and after immersion in water. Materials and Design 58:125–29.
- Bayrakci, A. G., and G. Koçar. 2014. Second-generation bioethanol production from water hyacinth and duckweed in Izmir: A case study. Renewable & Sustainable Energy Reviews 30:306–16.
- Castro, A. M., and N. Pereira Jr. 2010. Produção, propriedades e aplicação de celulases na hidrólise de resíduos agroindustriais. Química Nova 33:181–88.
- Cotana, F., G. Cavalaglio, M. G. A. Nicolini, V. Coccia, and A. Petrozzi. 2014. Production of bioethanol in a second generation prototype from pine wood chips. Energy Procedia 45:42–41.
- Das, A., P. Ghosh, T. Paul, U. Ghosh, B. R. Pati, and K. C. Mondal. 2016. Production of bioethanol as useful biofuel through the bioconversion of water hyacinth (Eichhornia crassipes). 3 Biotech 6:70.
- Ernandes, F. M. P. G., and C. H. Garcia-Cruz. 2009. Zymomonas Mobilis: Um microrganismo promissor para a fermentação alcoólica. Semina:CienciasAgrárias 30:361–80.
- Ganguly, A., P. K. Chatterjee, and A. Dey. 2012. Studies on ethanol production from water hyacinth—A review. Renewable Sustainable Energy Reviews 16:966–72.
- Gao, Y., B. Yu, K. Wu, Q. Yuan, X. Wang, and H. Chen. 2016. Physicochemical, pyrolytic,and combustion characteristics of hydrochar obtained by hydrothermal carbonization of biomass. Bioresources 11:4113–33.
- Lennartsson, P. R., P. Erlandsson, and M. J. Taherzadeh. 2014. Integration of the first and second generation bioethanol processes and the importance of by-products. Bioresources Technology 165:3–8.
- López-Linares, J. C., I. Romero, C. Cara, E. Ruiz, E. Castro, and M. Moya. 2014. Experimental study on ethanol production from hydrothermal pretreated rapeseed straw by simultaneous saccharification and fermentation. Journal of Chemical Technology and Biotechnology 89:104–10.
- Methacanona, P., U. Weerawatsophona, N. Sumransina, C. Prahsarna, and D. T. Bergado. 2010. Properties and potential application of the selected natural fibers as limited life geotextiles. Carbohydrate Polymers 82:1090–96.
- Ogeda, T. L., and D. F. S. Petri. 2010. Hidrólise enzimática de biomassa. Química Nova 33:1549–58.
- Oliveira, M. 2012. Entre açúcares e genes. Revista Fapesp 200:86–91.
- Petrobras. 2002. Curso de formação de operadores de refinaria - Processo de refino. Curitiba, Brazil: Abadie, E.
- Rezania, S., M. Ponraj, M. F. M. Din, A. R. Songip, F. M. Sairan, and S. Chelliapan. 2015. The diverse applications of water hyacinth with main focus on sustainable energy and production for new era: An overview. Renewable and Sustainable Energy Reviews 41:943–54.
- Santos, F. A., J. H. De Queiróz, J. L. Colodette, S. A. Fernandes, V. M. Guimarães, and S. T. Rezende. 2012. Potencial da palha de cana-de-açúcar para produção de etanol. Química Nova 35:1004–10.
- Satyanagalakshmi, K., R. Sindhu, P. Binod, K. U. Janu, R. K. Sukumaran, and A. Pandey. 2011. Bioethanol production from acid pretreated water hyacinth by separate hydrolysis and fermentation. Journal of Scientific & Industrial Research 70:156–61.
- Sun, Y., and J. Cheng. 2002. Hydrolysis of lignocellulosic materials for ethanol production: A review. Bioresources Technology 83:1–11.
- Taherzadeh, M. J., and K. Karimi. 2008. Pretreatment of lignocellulosic wastes to improve ethanol and biogas production: A review. International Journal of Molecular Sciences 9:1621–51.
- Taj, S., M. A. Munawar, and S. Khan. 2007. Natural fiber-reinforced polymer composites. Proceeding Pakistan Academic Science 44:129–44.
- Téllez, T. R., E. M. R. López, G. L. Granado, E. A. Pérez, R. M. López, and J. M. S. Guzmán. 2008. The water hyacinth, eichhornia crassipes: An invasive plant in the guadiana river basin (Spain). Aquatic Invasions 3:42–53.
- Tumolva, T., J. Ortenero, and M. Kubouchi. 2013. Characterization and treatment of water hyacinth fibers for NFRP composites. The 19th International Conference on Composite Materials, 1–11. 28 July-2 August, Montreal, Canada.